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– BEST-CROP project ). One component of the project focuses on supplying barley straws with optimised composition and/or microstructure for various applications, including the construction sector
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researcher to join our team and contribute to a project, dedicated to the study of elastic wave transport in microstructured silicon membranes. The researcher will be primarily responsible for the design and
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uniaxial creep tests (tension, compression) and comparing the results Characterization of the microstructure–property relationship using optical microscopy, SEM and EBSD Correlation of microstructure and
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applications. The project aims to contribute to this global effort by solving essential challenges faced by the oil and gas industry, where the knowledge of correlation between microstructural and mechanical
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simulation software modelling the dynamic behavior of dislocations (DDD) in 3 dimensions, coupled with a spectral solver based on FFT. The procedures must analyze the simulated 3D microstructures to compare
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, energy, transportation, and construction. The laboratory focuses on describing the relationships between processing, microstructure, and properties, using both experimental and modeling/simulation
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on well-identified frames), validated models in operational conditions (New models based on real in-situ observations and mechanism). Microstructure manipulation for tailoring macroscopic response: Toughing
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on well-identified frames), validated models in operational conditions (New models based on real in-situ observations and mechanism). Microstructure manipulation for tailoring macroscopic response: Toughing
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faced by the oil and gas industry, where the knowledge of correlation between microstructural and mechanical properties of polymer composites after aging is very limited. The project will be organized
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(Generation of unique databases on well-identified frames), validated models in operational conditions (New models based on real in-situ observations and mechanism). Microstructure manipulation for tailoring